Quantum reservoir computing using a fully connected transverse-field Ising model with input and memory qubits outperforms econometric and standard ML benchmarks in realized volatility forecasting.
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A dual-species Rydberg atom array on a Kagome lattice can be driven into a quantum spin liquid state with topological order using a controlled sweep-quench-sweep protocol.
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Quantum Reservoir Computing for Realized Volatility Forecasting
Quantum reservoir computing using a fully connected transverse-field Ising model with input and memory qubits outperforms econometric and standard ML benchmarks in realized volatility forecasting.
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Quantum Spin Liquid State of a Dual-Species Atomic Array on Kagome Lattice
A dual-species Rydberg atom array on a Kagome lattice can be driven into a quantum spin liquid state with topological order using a controlled sweep-quench-sweep protocol.